Evolution
4th Edition
ISBN: 9781605356051
Author: Douglas Futuyma, Mark Kirkpatrick
Publisher: SINAUER
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Chapter 20, Problem 2PDT
Summary Introduction
To determine: The best method from genetic constraints, stabilizing selection and gene flow to explain the given stasis.
Introduction: The study of the evolution of descendants from common ancestors is called phylogeny. Inheritance is the basis of evolution. Adaptation also plays a crucial role in the evolution of an organism. A genus with short generation time has the ability to breed in captivity. All the descendants of this species share a common characteristic feature. This feature is considered as an evolutionary stasis.
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Evolution
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- In the Grants’ study of the medium ground finch, do you think the pattern of natural selection was directional, stabilizing, disruptive, or balancing? Explain your answer. If the environment remained dry indefinitely (for many years), what do you think would be the long-term outcome?arrow_forwardSuppose you have four species of lizard and you are interested in how leg length will change in a single generation of evolution under directional selection. Given the following parameters, which lizard do you predict will change the most in one generation? Species A: Heritability: 0.5, selection differential: 1.2 Species B: Heritability: 0.4, selection differential: -1.9 Species C: Heritability: 0.9, selection differential: -0.67 Species D: Heritability: 0.1, selection differential 3.2 Species A Species B Species C Species Darrow_forwardConsider a shrub species that grows along an environmental gradient, where the habitat ranges from being very warm on one end of the gradient, to very cold on the other end of the gradient on average. The traits of these shrubs vary; some individual shrubs show higher fitness when average temperatures are warm, whereas other individuals show higher fitness when average temperatures are cold. Based on what you know about how different evolutionary forces interact, under which of the following 4 scenarios would you expect populations of this species to show the highest levels of adaptation to local conditions? Population Population Two large populations, lots of gene flow between them Many small populations, lots of gene flow between them d. Cold ||||| Temperature Two large populations, no gene flow between them Many small populations, no gene flow between them Hot Cold Temperature |||| Hot a. The species is divided into two large populations, one on the warm end of the gradient and one…arrow_forward
- You are asked to assess whether a population of endangered salamanders can adapt to warming climate in their preferred habitat. The salamanders vary at a locus that determines adaptation to temperature, and the warming climate creates selection favoring one of two alleles at that locus. Drawing on what you know about natural selection and genetic drift, what information would you need to know about the salamanders to determine whether the allele that improves their adaptation to warmer climates will become fixed in the population? Strictly no plagiarism.arrow_forwardAccording to the Hardy-Weinberg law of equilibrium: Question 1 options: A) In absence of mutation and natural selection, the frequencies of the genotypes will remain stable because no evolutionary change takes place. B) In absence of gene flow, the frequencies of the genotypes will remain stable because no evolutionary change takes place. C) In absence of genetic drift, the frequencies of the genotypes will remain stable because no evolutionary change takes place. D) All of the above. E) None of the above.arrow_forwardWhen we take, say, 100 individuals of a species of beetle from the wild and place them in a new environment that is not so different that they are unable to thrive but different enough so that they are experiencing a new selective regime, say, a lower temperature, what typically happens? A - Sexual selection causes some larvae to be able to survive in the cooler temperatures and other individuals to be unable to survive because they need warmer temperatures. B - We are unable to measure phenotypic selection, presumably because we do not have much variation among individuals for how they handle temperature. C - The founder event assures us that the new population will be strictly representative of the source population (especially if we took all the 100 from the same location rather that from throughout the range of the species). D - The population evolves to be tolerant of the lower temperature; it can do this because of latent variation already in the 100 founding individuals. E -…arrow_forward
- The trait that natural selection “selects for” is lifetime Darwinian fitness. If relative matching of the moths to the background is determining fitness differences, is there any difference in other fitness components in the color morphs of Biston betularia that is influencing the direction of evolution in the three populations shown in the graph?arrow_forwardConsider this example. On a tropical island, there are iguanas that are green, blue, and yellow. The green iguanas can camouflage in the green grass, the yellow iguanas can camouflage in the dry, yellow grass. And the blue iguanas try to run fast to get away from prey. Over time, the blue iguanas disappear on the island, while the green and yellow iguanas survive. What type of natural selection is this? A. Balancing or Stabilizing selection B. Disruptive or Diversifying selection C. Directional selection D. Sexual selectionarrow_forwardImagine that you travel around the world and find two populations of fish that look very similar, but one one population lives in a cold climate and is very cold-resistant (produces an antifreeze protein), while the other population lives in warm climate and is not cold-resistant (and does not produce the antifreeze protein). This is the kind of example that biologists try to explain, and think about whether it is due to phenotypic plasticity or selection. Let's think through this with a series of questions. Which of the following are true about phenotypic plasticity? answer choices A-A change in the phenotype through phenotypic plasticity allows organisms to adapt to their current environment (for example, from not being cold-resistant to being cold-resistant) B-The difference between the two phenotypes in question is based on an allelic difference between the two (for example, cold-resistant and not cold-resistant are based on two different alleles of the same gene) C-…arrow_forward
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